Volumetric flow rate Archives - Engineeringness All Your Engineering Needs Fri, 17 Jan 2025 23:10:31 +0000 en-GB hourly 1 https://wordpress.org/?v=6.9.1 https://engineeringness.com/wp-content/uploads/2025/04/cropped-1611530912453-32x32.jpeg Volumetric flow rate Archives - Engineeringness 32 32 A Brief Introduction To Fluid Flow Within Pipes https://engineeringness.com/a-brief-introduction-to-fluid-flow-within-pipes/ https://engineeringness.com/a-brief-introduction-to-fluid-flow-within-pipes/#respond Sun, 11 Oct 2020 20:00:11 +0000 http://52.205.3.27/?p=83608 Flow Rates Flow rate is the volume of fluid that flows through a pipe or other enclosed region each second. Suppose we would want to describe the flow rate a fluid flows through a pipe: Mass flow rate – Mass of a substance which flows per unit of time, units kg/s Volumetric flow rate – Volume of a substance which flows per unit of time, units m3/s The relationship that relates to the mass flow rate and the volumetric flow rate is the density: m˙ – Mass flow rate, Q – Volumetric flow rate The units of density are kg/m3 which are derived from the standard density equation (1.1). Thus, having

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]]> Flow Rates

Flow rate is the volume of fluid that flows through a pipe or other enclosed region each second. Suppose we would want to describe the flow rate a fluid flows through a pipe:

  • Mass flow rate – Mass of a substance which flows per unit of time, units kg/s
  • Volumetric flow rate – Volume of a substance which flows per unit of time, units m3/s

The relationship that relates to the mass flow rate and the volumetric flow rate is the density:

m˙ – Mass flow rate, Q – Volumetric flow rate

The units of density are kg/m3 which are derived from the standard density equation (1.1). Thus, having the units of time will cancel and the units of density will be the same.

Flow Rate Examples

  1. The mass flow rate of a fluid is 6 g/s with a density of 2 kg/cm3. What is the volumetric flow rate in m3/s?
  2. If a fluid is flowing through a cone-shaped pipe

a. what is the difference between the inlet and outlet mass flow rates? Show your workings.

b. If the density is constant will the volumetric flow rate be the same at the inlet and outlet? Show your workings.

Flow Rate Question Answers:

1.

ρ = m.QQ=m.ρ

Convert the mass flow rate into the correct units:

1000 g = 1 kg

6 g/s = 0.006 kg/s

Q=0.006 (kg/s)2 (kg/cm3)=0.003 cm3/s

Convert the volumetric flow rate into the desired units:

1000000 cm3 = 1 m3

Q = 0.003 cm3/s = 3×10-9 m3/s

2a. Using the conservation of mass in = mass out, thus mass flow rate at the inlet of the cone will be the same as the outlet.

2b. density is constant:

ρ = Constant

ρ=m˙Q

Thus, the density at the inlet is equal to the density at the outlet

m˙QInlet=m˙Qoutletm˙Inlet = m˙OutletQInlet=QOutlet

The volumetric flow rate at the inlet and outlet will be the same

Mean Velocity

 If the size of the pipe is known and the flow rate is known we can find the mean velocity. Velocity is the rate of change of the position of an object with respect to a frame of reference and time and mean velocity is the average velocity of a fluid in motion.

Figure 1: Cylindrical pipe with fluid flowing through

The area of the cross-section of the pipe at point z is A and at this point the mean velocity is umean. In a period fluid will pass point z with a length of umeant as (distance = speed x time).

Using the mean velocity, we can develop an expression for the volumetric flow rate:

Using the previous equations (1.3 and 1.7), we express the mass flow rate using the mean velocity along a cylindrical pipe:

Both expressions (1.7 and 1.8) are true for any shape of duct, as long as the condition of the cross-sectional area being perpendicular to the velocity is meet.

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